Realizations of the Triple Point of Sulfur Hexafluoride in Transportable and Refillable Cells

Tew, Weston L.; Quelhas, Klaus N.

doi:10.6028/jres.123.013

Cited by 26 publications

(25 citation statements)

References 29 publications

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“…Only recently has SF 6 of high purity become available; this is evident from older determinations of the triple-point temperature, where all data prior to 1993 were about 1 K too low. 3 This matches the approximately 0.9 K difference between the true triple point and that given by Vacek and Zollweg. Since the amount by which impurities depress the freezing point should not vary strongly with pressure, this suggests that all the freezing temperatures of Vacek and Zollweg are too low by roughly 0.9 K.…”

Section: Analysis Of Guder-wagner Melting Equationsupporting

confidence: 82%

“…As a boundary for the validity of their EOS, Guder and Wagner gave an equation for the melting pressure, p m , as a function of temperature T. The melting curve p m (T) (in particular its initial slope at the triple-point temperature T t ) is important in metrology because of recent work toward developing the triple point of SF 6 (at approximately 223.555 K) as a non-toxic alternative to the triple point of mercury (234.3156 K) for realization of the temperature scale. 2,3 In the course of the work reported in Ref. 3, it was realized that the slope dp m /dT given by the Guder-Wagner correlation at the triple point was significantly larger than that given by a thermodynamic estimate based on the Clapeyron equation.…”

Section: Introductionmentioning

confidence: 98%

“…2,3 In the course of the work reported in Ref. 3, it was realized that the slope dp m /dT given by the Guder-Wagner correlation at the triple point was significantly larger than that given by a thermodynamic estimate based on the Clapeyron equation. In the following, we derive the Clapeyron slope from thermodynamic data, diagnose the probable reason for the inaccurate initial slope of the correlation of Guder and Wagner, and present a new correlation for p m (T) that is consistent with the Clapeyron slope.…”

Section: Introductionmentioning

confidence: 98%

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On the Melting Curve of Sulfur Hexafluoride

Harvey

2017

Journal of Physical and Chemical Reference Data

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A previous correlation for the melting curve of sulfur hexafluoride (SF 6) is inconsistent with the thermodynamic slope at the triple point derived from the Clapeyron equation. It is shown that this is probably due to the previous authors combining an accurate measurement of the triple point with melting-curve data that were distorted by impurities. A new equation is proposed that is consistent with the Clapeyron slope.

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Section: Analysis Of Guder-wagner Melting Equationsupporting

confidence: 82%

Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 98%

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On the Melting Curve of Sulfur Hexafluoride

Harvey

2017

Journal of Physical and Chemical Reference Data

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“…When products have to change, but user and consumer needs remain unchanged or are only marginally modified, new processes, products, and materials need to be actively developed. This replacement effect and market emergence occurred in the case of mercury, for example, when several new products were rapidly created to replace mercury after the Minamata convention (Born, 2001;Gnybida et al, 2014;Tew & Quelhas, 2018). Furthermore, it is possible that completely new needs, such as the need to reuse materials that have previously treated as waste only, emerge from changes in regulation (see Constantini & Crespi, 2013).…”

Section: Introductionmentioning

confidence: 99%

Innovation Management Responses to Regulation—sup-Directive and Replacing Plastic

Hurmelinna‐Laukkanen

Paukku

Taskila

2021

Int. J. Innov. Mgt.

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Changes in regulation trigger changes in the innovation environments. They may block specific development trajectories, but they may simultaneously inspire and stimulate completely new openings. In this study, we look into regulation that aims to address environmental problems and facilitate creation and diffusion of sustainable technologies and processes as we examine the responses of innovators to the regulation on plastic use and production—specifically, the so-called SUP-directive. A multiple-case study comprising six companies suggests that companies manage (with) the regulation-induced innovation and needs for change by adopting three distinctive strategies: (1) proactive change orientation, (2) reactive opportunity capturing, or (3) reactive survival mode. Acknowledging that sustainability-oriented regulation may push companies with environmentally friendly innovation activities and solutions towards reactive survival mode highlights the need for managerial agility in adjusting the solutions and the ability to adopt parallel innovation strategies. Observing the strategies adopted by innovators also is informative when evaluating whether the regulation meets its profound goals and intended effects.

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“…Therefore, both types of non-uniqueness are expected to benefit from the use of an alternative fixed point situated about halfway between ArTP and WTP. The trend in recent years toward increasingly restrictive regulations around the transportation and use of Mercury has also spurred a search for suitable alternatives to the MTP using more benign materials [see, for example, [8][9][10]. Unfortunately, neither SF 6 nor CO 2 resolve the problem related to the closeness to the WTP.…”

Section: Introductionmentioning

confidence: 99%

Comparison of xenon triple point realizations

2018

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It is widely recognized that the Mercury triple point being situated very close to the Water triple point constitutes a weakness in the International Temperature Scale of 1990 (ITS-90), in addition to safety concerns related to the use and transportation of Mercury. As such, a substitution for a safer, highquality fixed point about half way between the Argon and Water triple points would be highly desirable. Now, a direct comparison is described of a Xenon cell filled in 2005 by the National Research Council Canada (NRC) and a more recently produced cell of the Istituto Nazionale di Ricerca Metrologica (INRIM). The present paper discusses the INRiM 2017 measurements on both the INRiM and NRC cells, with a follow-up measurement at NRC, and presents the difference between the two cells, (0.17 ± 0.08) mK with the uncertainties of each cell's realization of the Xenon triple point, 0.11 mK for the INRiM cell and 0.07 mK for the NRC cell (k = 1). In addition, the effect of substituting Mercury with Xenon on Type 1 non-uniqueness ("SRI," subrange inconsistency), Type 3 non-uniqueness ("NU3," cSPRT variability) and propagation of fixed point realization uncertainty is shown and discussed.

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Realizations of the Triple Point of Sulfur Hexafluoride in Transportable and Refillable Cells

Cited by 26 publications

References 29 publications

On the Melting Curve of Sulfur Hexafluoride

On the Melting Curve of Sulfur Hexafluoride

Innovation Management Responses to Regulation—sup-Directive and Replacing Plastic

Comparison of xenon triple point realizations

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